WO2017207475A1

WO2017207475A1 - Machine for dewatering and drying a fibrous web

Info

Publication number: WO2017207475A1
Application number: PCT/EP2017/062865
Authority: WO
Inventors: Herr Daniel GRONYCH; Thomas RÜHL
Original assignee: Voith Patent Gmbh
Priority date: 2016-06-03
Filing date: 2017-05-29
Publication date: 2017-12-07
Also published as: DE102016209780A1; EP3464716B1; CN109563683B; US11286617B2; EP3464716A1; US20190100876A1; CN109563683A

Abstract

The invention relates to a machine for dewatering and drying a paper, cardboard or other fibrous web (1), to which machine a fibrous stock suspension which is formed at least partially from waste paper is fed, having at least two pressure nips (2, 3) which are formed by in each case two press rolls (4, 5, 6, 7), wherein the fibrous web (1) with in each case one water-absorbing dewatering belt (8, 9) on both sides runs through the second pressure nip (3) through the first (2) and at least one other dewatering belt (10), and a smooth impermeable transfer belt (11) is guided through the second pressure nip (3) on that side of the fibrous web (1) which lies opposite the other dewatering belt (10), which transfer belt (11) transfers the fibrous web (1) downstream of the second pressure nip (3) to a belt (12) of a following machine unit. Here, a reliable web-wide transfer is to be made possible by virtue of the fact that the transfer belt (11) runs under the fibrous web (1), the receiving belt (12) is a dryer fabric, and the following machine unit is a drying group, in which the fibrous web (1) is guided in a serpentine-shaped manner over heated drying cylinders (19) and evacuated guiding rollers (20) in an alternating way, and a drying cylinder (19) of the following drying group is assigned at least one removal doctor (24), wherein a pulper (23) is situated under the removal doctor (24), and the axis of the drying cylinder (19) with the removal doctor (24) and the axis of the following, evacuated guiding roller (20) are offset vertically with respect to one another and are at a horizontal spacing (22) from one another which is greater than 80% of the sum of the radii of said drying cylinder (19) and said guiding roller (20).

Description

MACHINE FOR DRAINING AND DRYING A FIBROUS WEB

The invention relates to a machine for dewatering and drying a paper, cardboard or other fibrous web, which is fed to a pulp suspension formed at least partially from waste paper, with at least two press nips, which are formed by two compressed press rolls, wherein the fibrous web with both sides one water-absorbing dewatering band runs through the first and at least one other dewatering belt through the second press nip, and a smooth impermeable transfer belt is passed through the second press nip on the side of the fibrous web opposite the other dewatering belt, which passes the fibrous web to a belt after the second press nip passes the following machine unit.

Such systems have long been known, the pulp suspensions made from waste paper having an increased content of impurities.

Accordingly, the fibrous webs produced therefrom lead to a greater contamination of the elements coming into contact therewith, especially if these elements have a relatively high adhesion, in particular a smooth surface.

For this reason, the two press nips often have two separate dewatering belts, so that the fibrous web can be safely guided between the two. However, this is then also associated with a high rewetting of the fibrous web after the press nip.

To reduce this rewet, it is also known to lead through the second press nip only one, usually upper dewatering belt. The fibrous web then adheres after the second press nip to the smooth shell surface of the corresponding press roll and is then transferred by open draw to a belt of a following dryer group.

The problem here is the transfer of the fibrous web by means of open train, especially at high machine speeds and the costly transfer. The object of the invention is therefore to simplify the transfer at as intensive as possible dewatering of the fibrous web, secure web run and the lowest possible rewet. According to the invention, the object is achieved in that the transfer belt passes under the fibrous web, the receiving belt is a dryer and the following machine unit is a dryer group in which the fibrous web is meandering, alternately heated by heated drying cylinders and suctioned guide rollers and one, preferably the first drying cylinder at least one pick-up scraper is associated with the following drying group, there being a pulper under the pick-up scraper and the axis of the drying cylinder with the pick-up scraper and the axis of the following swept guide roll being vertically offset from each other and spaced horizontally apart; which is greater than 80% of the sum of the radii of this drying cylinder and this guide roll.

Since the fibrous web is constantly guided by at least one band in the press section, the web guide is very stable even at high machine speeds. In addition, so the transfer can be done web width through the press section at least to the first drying cylinder of the following drying group, which also makes this very safe.

A transfer only to the end of the press section is problematic because the decrease in the fibrous web from the transfer belt by means of removal scraper can easily cause damage to the transfer belt because of the required contact pressure.

The horizontal distance between the axles creates enough room for the pulper and to discharge the fibrous web stably and safely from the take-off scraper into the pulp below it during transfer. This also reduces the risk that the fibrous web will not continue to be transferred to the pulper but rather to the drying cylinder or the dryer fabric during transfer, thereby causing damage to machine elements. It is advantageous if the axis of the drying cylinder with the decrease scraper and the axis of the following, suctioned guide roll even have a horizontal distance from each other, which is greater than 90% and in particular greater than 95% of the total of the radii of this drying cylinder and this Guide roll is.

After the second press nip the fibrous web adheres to the smooth transfer belt, so that the opposite relatively rough dewatering belt can be carried away immediately, at most 200 mm after this press nip without problems and a rewet is prevented.

The transfer belt then guides the web safely to the belt of the following machine unit. Subsequently, the transfer belt is cleaned by a cleaning device which directs a cleaning fluid with a pressure of at least 50 bar on the fibrous web-carrying side and at least one, subsequent scraper comprises.

It may be advantageous if the cleaning device even directs the cleaning fluid with a pressure of at least 100 bar, preferably at least 120 bar on the fibrous web leading side of the transfer belt.

Because of the high pressure and to ensure sufficient contact with the scraper, the transfer belt should be supported in the area of the cleaning device on at least one guide roller.

In the interest of intensive, yet volume-saving drainage, at least one, preferably both press nips should be formed extended. Advantageously, the extended press nip is formed by a cylindrical press roll and a shoe press roll, which has a flexible roll shell, which is pressed by a pressure shoe with concave pressing surface to the cylindrical roll.

It has proven to be optimal if the extended press nip extends at least over 250 mm in the machine direction and / or has a line force of at least 800 kN / m. For safe support of the fibrous web, the transfer belt should run below the fibrous web. This results in a sufficient adhesion of the fibrous web to the transfer belt, if this on the fibrous web leading side has a roughness R _z in the machine direction of less than 12, preferably less than 10 and in particular less than 8 μιτι.

Furthermore, the distance between the second press nip and the delivery of the fibrous web to the receiving band should be shorter than 2.5 m, preferably shorter than 2 m and in particular shorter than 1.5 m.

In order to safely guide the fibrous web before the press nips, it is advantageous if the fibrous web is guided at least before the first, preferably before each press nip over the longest possible guide distance of both bands of the respective press nip.

Since the fibrous web adheres to both dewatering belts after the first press nip with approximately equal thickness, the upper dewatering belt of the first press nip should be led away from the fibrous web during aspiration of the lower dewatering belt.

Particular advantages arise in the use of this invention in a machine for producing a fibrous web having a basis weight between 50 and 180, preferably between 50 and 120 g / m ² .

The invention will be explained in more detail with reference to an exemplary embodiment. In the accompanying drawing, the figure shows a schematic cross section through part of a paper machine with press section and the following drying group for the production of packaging papers with a basis weight between 50 and 120 g / m ² of a pulp suspension formed at least partially from waste paper.

The illustrated press section comprises two press nips 2, 3, which are formed by two compressed press rolls 4, 5, 6, 7, respectively. The separate ones Press roller pairs are thereby supported at the ends of support parts in the form of a foundation, which is supported on the machine foundation.

For gentle drainage both press nips are 2.3 formed extended. For this purpose, the press gaps 2, 3 are each formed by a cylindrical press roll 5, 7 and a shoe press roll 4, 6.

The shoe press rolls 4, 6 have a flexible roll shell, which is pressed by a contact shoe with a concave pressing surface to the cylindrical press roll 5, 7. The aim is a length of the press nip 2,3 in the machine direction 16 of at least 250 mm and a line force of at least 800 kN / m.

Through the first press nip 2, the fibrous web 1 runs on both sides with a respective dewatering belt 8, 9. In contrast, the fibrous web 1 is guided by an upper dewatering belt 10 and a lower, smooth and impermeable transfer belt 11 through the second press nip 3.

The dewatering belts 8,9,10 are designed as water-absorbing press felts.

The upper dewatering belt 8 of the first press nip 2 takes over the fibrous web 1 from a forming wire 17 of an upstream former for sheet formation. Subsequently, the lower dewatering belt 9 is brought into contact with the fibrous web 1 so that the fibrous web 1 is guided in front of the first press nip 2 over as long a guide path as possible from both belts 8, 9 of the press nip 2.

After the first press nip 2, the fibrous web 1 runs together with both dewatering belts 8, 9 before the upper dewatering belt 8 is led away. In order to ensure safe guidance of the fibrous web 1 during the routing of the upper dewatering belt 8, the lower dewatering belt 9 is sucked in this area by a suction box 18 arranged underneath. From the sole leading lower dewatering belt 9, the fibrous web 1 is then transferred to the other, upper dewatering belt 10 of the second press nip 3. After the second press nip 3, the (other) upper dewatering belt 10 is led away from the fibrous web 1 after a maximum of 200 mm, which reduces the risk of rewet, in particular at low basis weights.

Thereafter, the lower transfer belt 1 1 leads the fibrous web 1 until it is transferred to a belt 12, here a drying wire of a following drying group with only three drying cylinders 19 a drying section for drying the fibrous web 1, alone.

In the dryer group, the fibrous web 1 is supported by the dryer fabric, meandering alternately over heated drying cylinders 19 and evacuated guide rollers 20 out.

In this case, the first drying cylinder 19 of the following drying group is associated with a removal scraper 24. This separates the fibrous web 1 during transfer from the drying cylinder 19 and then passes this into a pulper 23 located underneath.

In order to make this safe and stable during the web-width transfer of the fibrous web 1, the axis of the first drying cylinder 19 with the removal scraper 24 and the axis of the following, evacuated guide roll 20 are vertically offset from one another. In addition, these axes have a horizontal distance 22 from each other, which is greater than 95% of the sum of the two radii of this drying cylinder 19 and this guide roller 20 here.

The upper dewatering belts 8, 10 and the drying wire each wrap around an evacuated guide roller 21 during the takeover of the fibrous web 1.

In the interest of a secure web run especially at basis weights between 50 and 120 g / m ² and / or machine speeds of more than 1, 000 m / min the distance between the second press nip 3 and the delivery of the fibrous web 1 to the acquiring drying wire shorter than 1, 5 m. In this case, a relatively smooth surface of the transfer belt 1 1 with a roughness R _z in the machine direction 16 of less than 10 μιτι on the fibrous web leading side ensures sufficient adhesion of the fibrous web 1 on the transfer belt 1 first

Due to their high proportion of impurities is to be expected by the contact of the fibrous web 1 with the transfer belt 1 1 with a relatively strong pollution thereof.

In order nevertheless to allow the longest possible and reliable operation, the transfer belt 1 1 is cleaned intensively after the delivery of the fibrous web 1 by a cleaning device 13.

This cleaning device 13 directs a cleaning fluid, here water at a pressure of at least 100 bar on the fibrous web-carrying side of the transfer belt 1 first Thereafter, the dissolved impurities are removed from a subsequent scraper 14 from the transfer belt 1 1.

Because of the high pressure, the transfer belt 1 1 is supported in the region of the cleaning device 13 and the scraper 14 on at least one guide roller 15.

Claims

1 . Machine for dewatering and drying a paper, cardboard or other fibrous web (1) formed at least partially from waste paper, with at least two press nips (2,3), each formed by two press rollers (4,5,6,7). , wherein the fibrous web (1) runs through the first (2) with a water-absorbing drainage belt (8,9) on both sides and at least one other drainage belt (10) through the second press nip (3) and on the other drainage belt (10) opposite side of the fibrous web (1), a smooth impermeable transfer belt (1 1) is guided through the second press nip (3), which transfers the fibrous web (1) after the second press nip (3) to a belt (12) of a following machine unit, thereby characterized in that the transfer belt (1 1) runs under the fibrous web (1), the receiving belt (12) is a drying fabric and the following machine unit is a drying group in which the fibrous web (1) meanders, alternating over heated drying cylinders (19) and vacuumed guide rollers (20) and at least one removal scraper (24) is assigned to a drying cylinder (19) of the following drying group, a pulper (23) being located under the removal scraper (24) and the axis of the drying cylinder (19 ) with the removal scraper (24) and the axis of the following, vacuumed guide roller (20) are vertically offset from one another and have a horizontal distance (22) from each other that is greater than 80% of the sum of the radii of this drying cylinder (19) and this Guide roller (20).

2. Machine according to claim 1, characterized in that at least one removal scraper (24) is assigned to one, preferably the first drying cylinder (19) of the following drying group, with a pulper (23) being located under the removal scraper (24). and the axis of the drying cylinder (19) with the removal scraper (24) and the axis of the following, vacuumed guide roller (20) are vertically offset from one another and have a horizontal distance (22) from one another that is greater than 80%, preferably greater than 90% and in particular greater than 95% of the sum of the radii of this drying cylinder (19) and this guide roller (20).

3. Machine according to one of the preceding claims, characterized in that the transfer belt (1 1) is cleaned after the second press nip (3) and the delivery of the fibrous web (1) by a cleaning device (13) which supplies a cleaning fluid at a pressure of at least 50, preferably at least 100 and in particular at least 120 bar on the side carrying the fibrous web and comprises at least one subsequent scraper (14).

4. Machine according to one of the preceding claims, characterized in that the transfer belt (1 1) is in the area of

Cleaning device (13) is supported on at least one guide roller (15).

5. Machine according to one of the preceding claims, characterized in that the distance between the second press nip (3) and the delivery of the fibrous web (1) to the receiving belt (12) is shorter than 2.5 m, preferably shorter than 2 m and in particular shorter than 1.5 m.

6. Machine according to one of the preceding claims, characterized in that at least one, in particular both press nips (2,3) are designed to be extended, the extended press nip (2,3) preferably being composed of a cylindrical press roller (5,7) and a shoe -Press roll (4,6) is formed, which has a flexible roll shell, which is pressed by a pressure shoe with a concave pressing surface to the cylindrical press roll (5,7).

7. Machine according to claim 6, characterized in that the extended press nip (2,3) extends at least over 250 mm in the machine direction (16) and / or has a line force of at least 800 kN / m.

8. Machine according to one of the preceding claims, characterized in that the transfer belt (1 1) on the fibrous web Page has a roughness R _z in the machine direction (16) of less than 12, preferably less than 10 and in particular less than 8 μηη.

9. Machine according to one of the preceding claims, characterized in that the fibrous web (1) at least in front of the first, preferably in front of each press nip (2,3) over the longest possible guide path from both belts (8,9,10,1 1) of the respective press gap (2,3).

10. Machine according to one of the preceding claims, characterized in that the upper dewatering belt (8) of the first press nip (2) is guided away from the fibrous web (1) during suction of the lower dewatering belt (9).

1 1 . Machine according to one of the preceding claims, characterized in that the other dewatering belt (10) is led away from the fibrous web (1) at most 200 mm after the second press nip (3). Machine according to one of the preceding claims, characterized in that the fibrous web (1) produced with the machine has a basis weight between 50 and 180, preferably between 50 and 120 g/m ² .